PLENARY LECTURES
Chairs: Prof. Cz. Strumiłło and Prof.
St. Pabis (Wednesday 9.00-10.25)
PLENARY I
A.
S. Mujumdar; An overview of
global R&D in industrial drying: current status and future directions
PLENARY II P. Perré;
Multiscale aspects of heat and mass transfer during
drying
Chair: Prof. P. Perre (Wednesday 14.20-15.00)
PLENARY III Y.
Itaya; S. Mori; Recent
R&D on Drying Technology in Japan
Chairs: Prof. Y. Itaya and Prof. J. Weres
(Thursday 9.00-10.25)
PLENARY IV Z.
Pakowski; Modern methods of
drying nanomaterials
PLENARY V St. Pabis;
Theoretical models of vegetables drying by convection
Chair: Prof. Z. Pakowski (Thursday
14.20-15.00)
PLENARY VI
T. Metzger,
M. Kwapińska, W. Kwapiński, M. Peglow, G. Saage, E. Tsotsas; New modelling and measuring methods in drying science
and technology
Chair: Prof. A.S. Mujumdar (Friday 9.00-9.40)
PLENARY VII Cz.
Strumiłło,
On perspective developments in drying
LECTURES
Chairs: Prof. P.P. Lewicki and Dr. A. Drużdżel
(Wednesday 10.45-12.05)
L1
S.
Sieniutycz; Thermodynamic
limits in applications of energy of solar radiation
L2
C.
Ratti, T. Kudra; Drying of foamed
materials: opportunities and challenges
L3
M. Araszkiewicz, A. Kozioł, A. Łupińska, M. Łupiński; Microwave drying of particles with various shapes suspended in the air
stream
L4
Z. Pakowski, M. Czapnik, M. Piątkowski, I. Zbiciński - Producing
nanoparticles by spray drying
Chairs: Prof. St. Sieniutycz and Prof. P.P.
Lenart (Wednesday 12.10-13.10)
L5
D.
Konopacka; The effect of
enzymatic treatment on dried vegetable colour
L6
N. Sunthonvit, G. Srzednicki,
J. Craske; Effects of drying treatments on the composition of
volatiles compounds in dried nectarines
L7
Z.
Emam-Djomeh,
J. Dehghannia, R.S. Gharabagh; Evaluation of
osmotic process in combination with coating on drying of apple slices
Chairs: Prof. W. Kamiński
and Prof. Zb. Szwast (Wednesday 15.05-16.05)
L8
G.
R. Chegini, J. Khazaei, B. Ghobadian, T. Tavakkoli-Hashjin; Prediction of apparatus, process and product parameters
in an orange juice spray dryer using neural networks
L9
A. Ryniecki,
A. Pawłowska, K. Moliński - Stochastic
analysis of unheated air drying of grain under three different climates
L10
Z. Pakowski, B. Krupińska, R. Adamski; Wood chips properties required for renewable fuel
drying with superheated steam and hot air
Chairs: Prof. G. Srzednicki and Dr. T.
Kudra (Wednesday 16.25-17.45)
L11
Y. Masmoudi,
A. Rigacci, P. Ilbizian, P. Achard; Solvent diffusion
during the supercritical CO2 drying of silica aerogels
L12
G. Rogacki, A. Zawadzka - The effect of
supercritical CO2 drying on parenchyma
L13 J.
Marszałek, W. Kamiński; Ethanol
dehydration techniques
L14
Z. Pakowski, M. Głębowski,
R. Adamski; Modeling of drying process of highly shrinking
materials using hydrogels as an example
Chairs: Prof. Zb.
Gawrzyński and Prof. J. Nastaj (Thursday 10.45-12.05)
L15
M. Piątkowski,
I. Zbiciński; Analysis of the mechanism of
counter-current spray drying
L16
J. Adamiec, E. Marcinak; Investigation of the kinetics of simultaneous drying
and microencapsulation processes in a spray dryer
L17
K.
Samborska, D. Witrowa-Rajchert; Alpha-amylase spray drying
L18
G.R.Chegini,
B. Ghobadian; Determination of basic design
parameters of fruit juice spray dryer
Chairs: Prof. O. Yaldiz and Dr. T. Metzger
(Thursday 12.10-13.10)
L19
S.Heffels,
U. Lerch, B. Caers; Line burners for efficient process
air heating in dryers
L20
C.
Ertekin, O. Yaldiz, N. Heybeli; Crop drying inTurkey
L21
G.R.
Askari, Z. Emam-Djomeh; Combined method
of drying in food industries
Chairs: Prof. S.J. Kowalski
and Prof. W. Ciesielczyk (Thursday
15.05-16.05)
L22
W.
Kwapiński, E. Tsotsas; Characterization of particulate materials in respect to drying,
desorption or adsorption in packed bed
L23
Zb. Gawrzyński, B. Pieczaba -
Aerodynamics of the pulsed fluid bed with cyclically
relocated gas stream and lengthwise pulsation
L24
R.G. Szafran, A. Kmieć
-
Dependence of heat and mass transfer on hydrodynamics
of bed flow in a spouted bed dryer
L25
A.
Poświata, Zb. Szwast,; Optimization of fine solid drying in bubbled fluidized bed
Chairs: Prof. A. Kmieć and dr hab. inż. Jerzy Świgoń (Friday
9.45-10.45)
L26
W.
Olek, J. Weres; Effects of
the method of identification of the diffusion coefficient on accuracy of
modeling bound water transfer in wood
L27
M. Kwapińska;
On the way from penetration models to discrete element
simulations of contact dryers
L28
L.
Muszyński; Empirical data
for modeling: methodological aspects in experimentation involving
hygro-mechanical characteristics of wood
Chairs: Prof. M.
Jaros and Dr. W.
Olek (Friday 11.05-12.05)
L29
J.
Nastaj, B. Ambrożek; Modeling of vacuum desorption of multicomponent moisture in freeze drying
process
L30
J.
Stawczyk, S. Li, D.Witrowa-Rajchert, A. Fabisiak; Kinetics of apple atmospheric freeze drying
L31
N.
Deliiski, A. Syuleymanov; Influence of the molar transfer coefficient on the pressure distribution
in beech lumber during its convective-vacuum drying
Chairs: Prof. I.
Zbiciński and Prof. D. Witrowa-Reichert ( (Friday
12.10-13.10)
L32
M.
Jaros, R. Zaremba, St. Pabis; Mathematical model of the fluidised-bed drying of cut vegetables
L33
D.
Piotrowski, A. Lenart, W. Pomarańska-Łazuka; The influence of osmotic dehydration on drying and
selected properties of dried blackcurrant
L34
O. Yaldiz, C.
Ertekin, N. Heybeli; Evaluation of
thin layer drying models for describing drying behaviour of okra
POSTERS
P1.
J. Adamiec, D. Kalemba - Analysis of microencapsulation ability of essential
oils during spray drying
P2.
G. Askari - Effect of microwave finishing step on microstructural changes of apple
slices
P3.
J. Banaszak – Estimation of the effective coefficient of heat conduction for
dried materials
P4.
G. Bihercz, J.
Beke -Semi-empirical model of convective
drying with wide range layer depth validity
P5.
M. Boszko, J. Malczewski, R. Grabarczyk
- Convective drying of wood chips at high temperature
P6.
G.R.Chegini, J. Khazaei, H.A.Rostami, A.R.Sanjari -
Designing of a heat pump dryer for drying of plum
P7.
W. Ciesielczyk
- Determining the heat of sorption for solid substances dried in the fluidized
bed
P8.
W. Ciesielczyk, J. Iwanowski
- Analysis of fluidized bed drying kinetics on the basis
of interphase mass transfer coefficient
P9.
W. Ciesielczyk, J. Szymczak, J. Wais, A. Wolff
- The effects of the drying method change on ammonium
sulphate production plant
P10.
J. Gawałek
- The effect of freezing rate on reconstitution
properties of vacuum freeze dried apples
P11.
Zb. Gawrzyński, A. Kubica, J. Stanisławski
- Drying of diced potatoes in the pulsed fluid bed
P12.
Zb. Gawrzyński, A. Nowaczewska-Torbus
- The spouted bed structure in the pulsed fluid
spouted dryer with widthwise pulsation
P13.
Zb. Gawrzyński, B. Pieczaba, G. Rogula, M. Rychlik
- The drying aspects to the polydispersed materials in
the modified pulsed fluid beds
P14.
Zb. Gawrzyński, B. Pieczaba, M. Rychlik
- The mixing characteristics in the pulsed fluid bed with
cyclically relocated gas stream
P15.
M. Ş. Güney
- The thin layer drying kinetic of hazelnut kernel in
fluidized bed
P16.
R.
Guzenda, W. Olek, M. Gołębiewska - Modelling moisture content changes in timber due to natural variation of
ambient air parameters
P17.
M. Jaros - Theoretical model with random coefficients of the drying kinetics for cut
onion
P18.
A. Klepaczka
- Comparison of heat fluxes during combined conductive
and convective drying of a paper web on the selected paper machines
P19.
S.J. Kowalski, B. Mielniczuk
- Drying induced stresses in macaroni dough
P20.
S. J. Kowalski, A. Rybicki - Numerical
identification of the vapour-liquid interface in a dried body
P21.
S. J. Kowalski, A. Smoczkiewicz
- Stresses in dried wood. Modelling and experimental
identification
P22.
S. Kujawa, J. Weres – Information system supporting parameter identification for heat
and mass transport processes
P23.
A. S. Markowski
- Safety assurance assessment in drying plant
P24.
N.V. Menshutina, A.E. Korneeva, M.G. Gordienko, A.A.
Voinovskiy, O.V. Sidorkin - Innovative drying methods for biological preparations in pharmaceutical
industry
P25.
N.V. Menshutina, A. Golovanov, E.N. Chunihin, O.V.
Sidorkin - Internet portal
“Drying-on-line”
P26.
G. Musielak - Numerical simulation of convective drying of kaolin
cylinder in non-steady drying conditions
P27.
G. Musielak - Numerical
treatment of non-linear boundary condition of mass transfer during second period
of drying
P28.
G. Musielak, J. Banaszak, J.
Kasperek - Determination of temperature
dependence of diffusion coefficient in fully saturated kaolin
P29.
J. Nastaj, K. Witkiewicz
- Novel experimental equipment for investigation of
vacuum freeze drying at microwave heating
P30.
D. Nowak, W. Pomarańska-Łazuka, D. Witrowa-Rajchert -
Influence of celeriac variety and drying mode on water
sorption properties of dried material
P31.
Z. Pakowski, B. Krupińska, R.
Adamski - Sorption isobars of tobacco materials in the superheated steam drying
process
P32.
P. Perré, R. Rémond
- A dual scale (board and stack) computational model of
wood drying
P33.
O. Piddubniak
- Spectral characteristics of porosity for a cylinder
rotated with a non-constant angular velocity
P34.
D. Piotrowski, E. Skrzyszewska
- The
influence of a pre-treatment on drying kinetics and selected properties of
prunes dried in constant and variable air conditions
P35.
D. Popovski, V. Mitrevski
- A generator of water desorption isotherm models
P36.
J. Stawczyk
- Atmospheric freeze drying process control
P37.
M. Surma, St. Peroń
- The dimensional analysis of factors effected on the
mass transfer during the spray drying of malt wort concentrate
P38.
A. Syuleymanov, N. Deliiski
- Computation of the boundary conditions for a
non-stationary model of the convective-vacuum drying of wood
P39.
J. Świgoń J. Longauer
- Energy consumption in production fuel wood pellets
P40.
E. Tomczak -
Calculation of water sorption isotherms for seasonings
using artificial neural networks
P41.
D. Tomkiewicz, A. Ryniecki
- Automatic identification of the end of near ambient
drying of rapeseeds using neural networks
P42.
I. Zbiciński, X. Li -
CFD modeling of spray drying kinetics
P43.
Z. Zdrojewski, St. Peroń - Comparison of computational programs Statistica and Excel for the
sorption isotherm approximation with selected equations
